Green hydrogen has long been billed as a clean fuel for heavy industry, shipping, and long-duration storage, but its price ...

Water purification technology developed by researchers from Seoul National University (Korea), the University of Tokyo (Japan ...

Guess what? A team at McGill University has pulled off something pretty impressive: a brand-new chemical-assisted water ...

Scientists have developed a new technique that doubles the amount of hydrogen produced when splitting water molecules with ...

Japan’s hydrogen transition is translating into consistent market expansion. The Demand for Water Electrolysis Machine in ...

Hydrogen has long been billed as the clean fuel that could power steel mills, cargo ships and even long-haul trucks without ...

This study presents a highly efficient approach to solar hydrogen production by pairing water electrolysis with the selective oxidation of biomass-derived glucose. Central to this advance is a ...

Hydrogen production through water electrolysis is a cornerstone of the clean energy transition, but it relies on efficient and stable catalysts that work under acidic conditions—currently dominated by ...

When water is split electrolytically, the result is typically hydrogen -- and 'useless' oxygen. Instead of oxygen, you can also produce hydrogen peroxide, which is required for many branches of ...

Scientists have pioneered a novel approach to water electrolysis catalysts for green hydrogen production. Originally, the term "Sherpa" denoted a hill-tribe of Tibetan descent, but it has since become ...

Figure 1: Field-induced water electrolysis switches an oxide semiconductor from an insulator to a metal. We have found that water-infiltrated nanoporous glass overcomes this problem and switches an ...